Porous cordierite ceramics with the poreformers of different kinds

The investigating results are given on the cordierite ceramic porous materials development. The wood waste and the crystalline carbamide were used as the pore-formers. The pore structure analysis showed that all samples had complex pore space composed of numerous elongated connected pores. The best pore formation factors were achieved when using the organic crystalline pore-former. It was demonstrated that nanodispersive metal alumina acted as the strengthening agent in course of the porous ceramics sintering. The organic clay suspension improves the cordierite powder's agglomeration capacity and gives rise to additional nano- and micro-pores.

cordierite ceramics, wood waste, carbamide, alumina nanopowder (ANP),

1. Ключевые слова: кордиеритовая керамика; древесные отходы; карбамид; нанопорошок алюминия (НПА).

2. Avvakumov, E. G. Role of acid-base interactions in synthesis of cordierite from talc and sillimanite group minerals / E. G. Avvakumov, G. G. Lepezin, A. A. Gusev, O. B. Vinokourova // Science of Sintering. ― 2013. ― Vol. 45. ― P. 273‒279.

3. Stoyanova, D. D. Cordierite-like catalyst supports based on clay materials / D. D. Stoyanova, D. Ch. Vladov, N. A. Kasabova, D. R. Mekhandzhiev // Kinet. Catal. ― 2005. ― Vol. 46, № 4. ― P. 609‒612.

4. Benhammou, A. Tanouti. Influence of sintering temperature on the microstructural and mechanical properties of cordierite synthesized from andalusite and talc / A. Benhammou, Y. El Hafiane, A. Abourriche [et al.] // Mater. Lett. ― 2016. ― Vol. 172. ― P. 198‒201.

5. Хабас, Т. А. Низкотемпературный синтез кордиеритовой фазы в керамических массах из природного сырья / Т. А. Хабас, В. И. Верещагин, Т. В. Вакалова [и д р.] // Нов ые ог неу поры. ― 2002 . ― № 4 . ― С. 41‒48. [Khabas, T. A. Low-temperature synthesis of the cordierite phase in ceramic mixtures of natural raw materials / T. A. Khabas, V. I. Vereshchagin, T. V. Vakalova [et al.] // Refractories and Industrial Ceramics. ― 2003. ― Vol. 44, № 3. ― P. 181‒185.]

6. Al-Harbi, Omar A. Fabrication and characterization of single phase cordierite honeycomb monolith with porous wall from natural raw materials as catalyst support / Omar A. Al-Harbi, Cem Özgür, M. M. Khan // Ceram. Int. ― 2015. ― Vol. 41. ― P. 3526‒3532.

7. Bing Zhang. Preparation low dielectric constant material of cordierite with polyacrylamide gel method / Bing Zhang, Chuanbao Cao, Hesun Zhu, Gguobao Li // J. Mater. Sci. ― 2005. ― Vol. 40. ― Р. 1781‒1783.

8. Ye Li. Properties of highly porous cordierite ceramic obtained by direct foaming and gelcasting method / Ye Li, Wei Cao, Lunlun Gong [et al.] // Ceram. Silik. ― 2016. ― Vol. 60, № 2. ― Р. 91‒98.

9. Вакалова, Т. В. Теплоизоляционные керамические материалы с нанопористой структурой, изготовленные с использованием золосодержащих отходов ТЭЦ / Т. В. Вакалова, Т. А. Хабас, И. Б. Ревва, И. А. Павлова // Новые огнеупоры. ― 2014. ― № 12. ― С. 6‒11. [Vakalova, T. V. Heat-insulating ceramics which have a nanoporous structure and are made with the use of ash-bearing wastes from power plants / T. V. Vakalova, T. A. Khabas, I. B. Revva, I. A. Pavlova // Refractories and Industrial Ceramics. ― 2015. ― Vol. 55, № 6. ― P. 505‒510.]

10. Thomaidis, E. Synthesis of cordieritic materials using raw kaolin, bauxite, serpentinite/olivinite and magnesite / E. Thomaidis, G. Kostakis // Ceram. Int. ― 2015. ― Vol. 41. ― P. 9701‒9707.

11. Jianer Zhou. Utilization of sepiolite in the synthesis of porous cordierite ceramics / Jianer Zhou, Yingchao Dong, Stuart Hampshire, Guangyao Meng // Applied Clay Science. ― 2011. ― Vol. 52. ― P. 328‒332.

12. Gass, Sebastián E. High temperature mechanical behavior of porous cordierite-based ceramic materials evaluated using 3-point bending / Sebastián E. Gass, María Laura Sandoval, Mariano H. Taloua [et al.] // Proc. Mater. Sci. ― 2015. ― Vol. 9. ― P. 254‒261.

13. Ayala-Landeros, J. G. Influence of corn flour as pore forming agent on porous ceramic material based mullite: morphology and mechanical properties / J. G. AyalaLanderos, V. Saucedo-Rivalcoba, S. Bribiesca-Vasquez [et al.] // Science of Sintering. ― 2016. ― Vol. 48. ― P. 29‒39.

14. Gregorova, Eva. Porous ceramics prepared using poppy seed as a pore-forming agent / Eva Gregorova, Willi Pabst // Ceram. Int. ― 2007. ― Vol. 33. ― P. 1385‒1388.

15. Li, Ye. Effect of starch on sintering behavior for fabricating porous cordierite ceramic / Ye Li, Cao Wei, Gong Lunlun [et al.] // High Temp. Mater. Processes. ― 2016. ― Vol. 35, № 9. ― P. 955‒961.

16. Benhammou, A. Effects of oil shale addition and sintering cycle on the microstructure and mechanical properties of porous cordierite-ceramic / A. Benhammou, Y. El Hafiane, A. Abourriche [et al.] // Ceram. Int. ― 2014. ― Vol. 40. ― P. 8937‒8944.

17. Jing, Liua. Feasible recycling of industrial waste coal fly ash for preparation of anorthite-cordierite based porous ceramic membrane supports withaddition of dolomite / Jing Liua, Yingchao Donga, Xinfa Dongc [et al.]

18. // J. Eur. Ceram. Soc. ― 2016. ― Vol. 36. ― P. 1059‒1071.

19. Chuanbei, Liu. Fabrication and characterization of porous cordierite ceramics prepared from ferrochromium slag / Liu Chuanbei, Liu Laibao, Tana Kefeng [et al.] // Ceram. Int. ― 2016. ― Vol. 42, № 1. Part A. ― P. 734‒742.

20. Cheraitia, A. Synthesis and characterization of microporous silica-alumina membranes / A. Cheraitia, A. Ayral, A. Julbe [et al.] // Journal of Porous Materials. ― 2010. ― Vol. 17, № 3. ― P. 259‒263.

21. Qian, L. Controlled freezing and freeze drying: a versatile route for porous and micro-/nano-structured materials / L. Qian, H. F. Zhang // J. Chem. Technol. Biotechnol. ― 2011. ― Vol. 86, № 2. ― P. 172‒184.

22. Vijayan, S. Dispersion and setting of powder suspensions in concentrated aqueous urea solutions for the preparation of porous alumina ceramics with aligned pores / S. Vijayan, R. Narasimman, K. Prabhakaran // J. Am. Ceram. Soc. ― 2013. ― Vol. 96, № 9. ― P. 2779‒2784.

23. Камышная, К. С. Исследование процесса получения пор заданной конфигурации в керамике из диоксида циркония за счет направленной кристаллизации карбамида / К. С. Камышная, Т. А. Хабас // Новые огнеупоры. ― 2016. ― № 9.― С. 33‒38.

24. Kamyshnaya, K. S. Study of preparation of prescribed pore configuration in zirconium dioxide ceramic due to carbamide directional solidification / K. S. Kamyshnaya, T. A. Khabas // Refractories and Industrial Ceramics. ― 2017. ― Vol. 57, № 5. ― P. 490‒495.

25. Macchetta, A. Fabrication of HA/TCP scaffolds with a graded and porous structure using a camphenebased freeze-casting method / A. Macchetta, I. G. Turner, C. R. Bowen // Acta Biomaterialia. ― 2009. ― № 5.― P. 1319‒1327.